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7367750823
* Renamed lmms_basics.h to LmmsTypes.h and scoped it down for that purpose. * Shifted the LMMS_STRINGIFY macro to it's own header. * Removed the debug.h header file and use cmake to handle the macro logic. * Remove some unused headers and include directives
367 lines
8.3 KiB
C++
367 lines
8.3 KiB
C++
/*
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* Delay.h - Delay effect objects to use as building blocks in DSP
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*
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* Copyright (c) 2014 Vesa Kivimäki <contact/dot/diizy/at/nbl/dot/fi>
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* Copyright (c) 2006-2014 Tobias Doerffel <tobydox/at/users.sourceforge.net>
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*
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* This file is part of LMMS - https://lmms.io
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* General Public License for more details.
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*
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* You should have received a copy of the GNU General Public
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* License along with this program (see COPYING); if not, write to the
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* Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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* Boston, MA 02110-1301 USA.
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*
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*/
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#ifndef LMMS_DELAY_H
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#define LMMS_DELAY_H
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#include <cmath>
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#include "LmmsTypes.h"
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namespace lmms
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{
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// brief usage
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// Classes:
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// CombFeedback: a feedback comb filter - basically a simple delay line, makes a comb shape in the freq response
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// CombFeedfwd: a feed-forward comb filter - an "inverted" comb filter, can be combined with CombFeedback to create a net allpass if negative gain is used
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// CombFeedbackDualtap: same as CombFeedback but takes two delay values
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// AllpassDelay: an allpass delay - combines feedback and feed-forward - has flat frequency response
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// all classes are templated with channel count, any arbitrary channel count can be used for each fx
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// Methods (for all classes):
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// setDelay sets delay amount in frames. It's up to you to make this samplerate-agnostic.
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// Fractions are allowed - linear interpolation is used to deal with them
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// CombFeedbackDualTap is a special case: it requires 2 delay times
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// setMaxDelay (re)sets the maximum allowed delay, in frames
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// NOTE: for performance reasons, there's no bounds checking at setDelay, so make sure you set maxDelay >= delay!
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// clearHistory clears the delay buffer
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// setGain sets the feedback/feed-forward gain, in linear amplitude, negative values are allowed
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// 1.0 is full feedback/feed-forward, -1.0 is full negative feedback/feed-forward
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// update runs the fx for one frame - takes as arguments input and number of channel to run, returns output
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template<ch_cnt_t CHANNELS>
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class CombFeedback
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{
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public:
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using frame = std::array<double, CHANNELS>;
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CombFeedback( int maxDelay ) :
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m_size( maxDelay ),
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m_position( 0 ),
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m_feedBack( 0.0 ),
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m_delay( 0 ),
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m_fraction( 0.0 )
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{
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m_buffer = new frame[maxDelay];
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memset( m_buffer, 0, sizeof( frame ) * maxDelay );
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}
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virtual ~CombFeedback()
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{
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delete[] m_buffer;
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}
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inline void setMaxDelay( int maxDelay )
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{
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if( maxDelay > m_size )
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{
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delete[] m_buffer;
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m_buffer = new frame[maxDelay];
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memset( m_buffer, 0, sizeof( frame ) * maxDelay );
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}
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m_size = maxDelay;
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m_position %= m_size;
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}
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inline void clearHistory()
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{
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memset( m_buffer, 0, sizeof( frame ) * m_size );
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}
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inline void setDelay( double delay )
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{
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m_delay = static_cast<int>( ceil( delay ) );
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m_fraction = 1.0 - ( delay - floor( delay ) );
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}
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inline void setGain( double gain )
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{
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m_gain = gain;
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}
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inline double update( double in, ch_cnt_t ch )
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{
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int readPos = m_position - m_delay;
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if( readPos < 0 ) { readPos += m_size; }
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const double y = std::lerp(m_buffer[readPos][ch], m_buffer[(readPos + 1) % m_size][ch], m_fraction);
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++m_position %= m_size;
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m_buffer[m_position][ch] = in + m_gain * y;
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return y;
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}
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private:
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frame * m_buffer;
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int m_size;
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int m_position;
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double m_gain;
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int m_delay;
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double m_fraction;
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};
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template<ch_cnt_t CHANNELS>
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class CombFeedfwd
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{
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using frame = std::array<double, CHANNELS>;
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CombFeedfwd( int maxDelay ) :
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m_size( maxDelay ),
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m_position( 0 ),
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m_feedBack( 0.0 ),
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m_delay( 0 ),
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m_fraction( 0.0 )
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{
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m_buffer = new frame[maxDelay];
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memset( m_buffer, 0, sizeof( frame ) * maxDelay );
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}
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virtual ~CombFeedfwd()
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{
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delete[] m_buffer;
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}
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inline void setMaxDelay( int maxDelay )
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{
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if( maxDelay > m_size )
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{
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delete[] m_buffer;
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m_buffer = new frame[maxDelay];
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memset( m_buffer, 0, sizeof( frame ) * maxDelay );
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}
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m_size = maxDelay;
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m_position %= m_size;
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}
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inline void clearHistory()
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{
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memset( m_buffer, 0, sizeof( frame ) * m_size );
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}
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inline void setDelay( double delay )
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{
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m_delay = static_cast<int>( ceil( delay ) );
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m_fraction = 1.0 - ( delay - floor( delay ) );
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}
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inline void setGain( double gain )
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{
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m_gain = gain;
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}
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inline double update( double in, ch_cnt_t ch )
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{
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int readPos = m_position - m_delay;
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if( readPos < 0 ) { readPos += m_size; }
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const double y = std::lerp(m_buffer[readPos][ch], m_buffer[(readPos + 1) % m_size][ch], m_fraction) + in * m_gain;
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++m_position %= m_size;
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m_buffer[m_position][ch] = in;
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return y;
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}
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private:
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frame * m_buffer;
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int m_size;
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int m_position;
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double m_gain;
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int m_delay;
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double m_fraction;
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};
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template<ch_cnt_t CHANNELS>
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class CombFeedbackDualtap
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{
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using frame = std::array<double, CHANNELS>;
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CombFeedbackDualtap( int maxDelay ) :
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m_size( maxDelay ),
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m_position( 0 ),
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m_feedBack( 0.0 ),
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m_delay( 0 ),
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m_fraction( 0.0 )
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{
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m_buffer = new frame[maxDelay];
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memset( m_buffer, 0, sizeof( frame ) * maxDelay );
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}
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virtual ~CombFeedbackDualtap()
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{
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delete[] m_buffer;
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}
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inline void setMaxDelay( int maxDelay )
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{
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if( maxDelay > m_size )
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{
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delete[] m_buffer;
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m_buffer = new frame[maxDelay];
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memset( m_buffer, 0, sizeof( frame ) * maxDelay );
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}
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m_size = maxDelay;
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m_position %= m_size;
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}
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inline void clearHistory()
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{
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memset( m_buffer, 0, sizeof( frame ) * m_size );
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}
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inline void setDelays( double delay1, double delay2 )
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{
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m_delay1 = static_cast<int>( ceil( delay1 ) );
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m_fraction1 = 1.0 - ( delay1 - floor( delay1 ) );
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m_delay2 = static_cast<int>( ceil( delay2 ) );
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m_fraction2 = 1.0 - ( delay2 - floor( delay2 ) );
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}
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inline void setGain( double gain )
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{
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m_gain = gain;
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}
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inline double update( double in, ch_cnt_t ch )
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{
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int readPos1 = m_position - m_delay1;
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if( readPos1 < 0 ) { readPos1 += m_size; }
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int readPos2 = m_position - m_delay2;
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if( readPos2 < 0 ) { readPos2 += m_size; }
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const double y = std::lerp(m_buffer[readPos1][ch], m_buffer[(readPos1 + 1) % m_size][ch], m_fraction1)
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+ std::lerp(m_buffer[readPos2][ch], m_buffer[(readPos2 + 1) % m_size][ch], m_fraction2);
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++m_position %= m_size;
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m_buffer[m_position][ch] = in + m_gain * y;
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return y;
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}
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private:
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frame * m_buffer;
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int m_size;
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int m_position;
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double m_gain;
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int m_delay1;
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int m_delay2;
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double m_fraction1;
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double m_fraction2;
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};
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template<ch_cnt_t CHANNELS>
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class AllpassDelay
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{
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public:
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using frame = std::array<double, CHANNELS>;
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AllpassDelay( int maxDelay ) :
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m_size( maxDelay ),
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m_position( 0 ),
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m_feedBack( 0.0 ),
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m_delay( 0 ),
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m_fraction( 0.0 )
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{
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m_buffer = new frame[maxDelay];
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memset( m_buffer, 0, sizeof( frame ) * maxDelay );
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}
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virtual ~AllpassDelay()
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{
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delete[] m_buffer;
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}
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inline void setMaxDelay( int maxDelay )
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{
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if( maxDelay > m_size )
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{
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delete[] m_buffer;
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m_buffer = new frame[maxDelay];
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memset( m_buffer, 0, sizeof( frame ) * maxDelay );
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}
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m_size = maxDelay;
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m_position %= m_size;
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}
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inline void clearHistory()
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{
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memset( m_buffer, 0, sizeof( frame ) * m_size );
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}
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inline void setDelay( double delay )
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{
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m_delay = static_cast<int>( ceil( delay ) );
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m_fraction = 1.0 - ( delay - floor( delay ) );
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}
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inline void setGain( double gain )
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{
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m_gain = gain;
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}
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inline double update( double in, ch_cnt_t ch )
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{
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int readPos = m_position - m_delay;
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if( readPos < 0 ) { readPos += m_size; }
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const double y = std::lerp(m_buffer[readPos][ch], m_buffer[(readPos + 1) % m_size][ch], m_fraction) + in * -m_gain;
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const double x = in + m_gain * y;
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++m_position %= m_size;
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m_buffer[m_position][ch] = x;
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return y;
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}
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private:
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frame * m_buffer;
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int m_size;
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int m_position;
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double m_gain;
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int m_delay;
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double m_fraction;
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};
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// convenience typedefs for stereo effects
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using StereoCombFeedback = CombFeedback<2>;
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using StereoCombFeedfwd = CombFeedfwd<2>;
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using StereoCombFeedbackDualtap = CombFeedbackDualtap<2>;
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using StereoAllpassDelay = AllpassDelay<2>;
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} // namespace lmms
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#endif // LMMS_DELAY_H
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